Loading ...
also the variantsresultingfrom alternative splicing
several transcript variantsresultingfrom alternative splicing
Many transcript variantsresultingfrom alternative splicing
Multiple transcript variantsresultfrom alternative splicing
Two transcript variantsresultingfrom alternative splicing
different protein isoformsresultingfrom alternative splicing
new protein isoformsresultingfrom alternative splicing
5 splice variantsresultingfrom alternative splicing
several variantsresultingfrom alternative splicing
eight variantsresultingfrom alternative splicing
TSC1 variantsoriginatingfrom alternative splicing
the differences in their sequences mighthavebeen resultedfrom alternative splicing
only shorter ZAR1 transcript variantsresultingfrom alternative splicing
1 The 6 human tau protein isoformsresultingfrom alternative splicing
Ferrara P. An amino - terminal variant of the central cannabinoid receptorresultingfrom alternative splicing
some allelic variants ... isoformsresultfrom alternative splicing
five proteinsresultingfrom alternative splicing
two variants of human VSIG4resultfrom alternative splicing
three known major transcript variantsresultingfrom alternative splicing
Two isoforms of the human proteinresultfrom alternative splicing
Different isoforms of amelogeninmostly resultingfrom alternative splicing
electrophysiological differencesresultingfrom alternative splicing
Functional differencesresultingfrom alternative splicing
CCN3 variant proteins ... most likelyresultfrom alternative splicing
more than 260,000 protein variantsresultingfrom alternative splicing
1,860 protein variantsresultingfrom alternative splicing
velocity of RNA secondary structure(passive) caused byAlternative splicing
interest ... a new class of 5′ snoRNA‐stabilized lncRNAinfluencesalternative splicing
3]"An amino - terminal variant of the central cannabinoid receptorresultingfrom alternative splicing
four mRNA variantsresultingfrom alternative splicing
OsWRKY mRNA variantsresultingfrom alternative splicing
the presence of two variants of Derlin-3probably resultingfrom alternative splicing
two protein isoforms ... different C terminiresultfrom alternative splicing
RNA secondary structure , Cell , 1985(passive) caused byD. Alternative splicing
numerous proteins and RNAsinfluencealternative splicing
DEXSeq An example of a region ... a conserved RNA secondary structure feature detected by investigating editing eventscan ... influencealternative splicing
Ile , Leu , Met , Phe , Ala Possible variant forms of the VEGF - D polypeptidemay resultfrom alternative splicing
showing IE72 and IE86 transcriptsresultingfrom alternative splicing
Two different isoforms of the protein ... Fig . 1A ... most likelyresultfrom alternative splicing
primary protein sequence structureresultingfrom alternative splicing
to both gene regulation and protein diversitycontributesto both gene regulation and protein diversity
two transcript variants encoding different isoformscreatestwo transcript variants encoding different isoforms
to multiple transcript variants encoding the same proteinleadsto multiple transcript variants encoding the same protein
in transcript variants encoding different isoforms ( flip and flopresultingin transcript variants encoding different isoforms ( flip and flop
to different protein isoforms being generated from the same parent geneleadsto different protein isoforms being generated from the same parent gene
to protein diversity by modifying most gene transcriptionscontributesto protein diversity by modifying most gene transcriptions
to different protein isoforms in various tissuesleadingto different protein isoforms in various tissues
in multiple transcript variants encoding distinct isoformswill resultin multiple transcript variants encoding distinct isoforms
in different isoforms of this gene productresultingin different isoforms of this gene product
Two isoforms of Maf(passive) caused byTwo isoforms of Maf
Two isoforms of UHRF1(passive) caused byTwo isoforms of UHRF1
PubMed]Lipscombe D. Neuronal proteins custom(passive) designed byPubMed]Lipscombe D. Neuronal proteins custom
Different isoforms of ankyrin(passive) caused byDifferent isoforms of ankyrin
three different isoforms(passive) originated bythree different isoforms
in some cases different proteins from the same genecan leadin some cases different proteins from the same gene
two transcript variants which encode different isoformsresultstwo transcript variants which encode different isoforms
different sized proteins from the same gene .. 3may createdifferent sized proteins from the same gene .. 3
in transcript variants encoding different isoforms ( including the flip and flop isoforms that vary in their signal transduction propertiesresultingin transcript variants encoding different isoforms ( including the flip and flop isoforms that vary in their signal transduction properties
greatly to protein diversitiescontributesgreatly to protein diversities
View Article Lipscombe D. Neuronal proteins custom(passive) designed byView Article Lipscombe D. Neuronal proteins custom
variants of two isoforms have been describedleadsvariants of two isoforms have been described
in generation of the two different isoformscould resultin generation of the two different isoforms
in the expression of two different isoformsresultingin the expression of two different isoforms
to different transcripts ( different versions ) of the same genecan leadto different transcripts ( different versions ) of the same gene
different sized proteins produced from the same gene Relative chargemay createdifferent sized proteins produced from the same gene Relative charge
OCT4 gene(passive) can be influenced byOCT4 gene
in several transcript variantsmay resultin several transcript variants
inseveral transcript variantsresultsinseveral transcript variants
to the production of different protein isoforms using single mRNA precursorsleadsto the production of different protein isoforms using single mRNA precursors
Different isoforms of S6 K(passive) caused byDifferent isoforms of S6 K
different isoforms from a common templatecan createdifferent isoforms from a common template
in the generation of six different isoformsresultingin the generation of six different isoforms
ArticlePubMed CentralPubMedGoogle Scholar Lipscombe D. Neuronal proteins custom(passive) designed byArticlePubMed CentralPubMedGoogle Scholar Lipscombe D. Neuronal proteins custom
some additional diversity(passive) contributed bysome additional diversity
multiple mRNA transcripts from these genescreatesmultiple mRNA transcripts from these genes
to two isoforms , О - receptor1 and О-leadingto two isoforms , О - receptor1 and О-
in the production of two functionally different isoformsresultsin the production of two functionally different isoforms
REST protein isoforms(passive) caused byREST protein isoforms
to the additional protein isoformsleadingto the additional protein isoforms
to oncogenic protein isoformsleadingto oncogenic protein isoforms